Phonograph record player

ABSTRACT

In a phonograph record player, an improved control mechanism is provided for effecting lead-in movement of a tone arm from an elevated rest position outside the perimeter of a turntable to a selected set-down position on a record supported by the turntable so as to commence a play operation, and for effecting a return movement of the tone arm to its rest position upon the termination of the play operation. In such control mechanism, a lever assembly is angularly displaced by a cam follower engaging in a cam groove of a control gear to effect the lead-in and return movements during turning of the control gear by engagement of a drive gear with first and second sets, respectively, of teeth on the control gear which are separated by first and second toothless gaps facing the drive gear in stop and play positions, respectively, of the control gear. In order to initiate turning of the control gear from such stop and play positions, lead-in and return clutches are mounted at diametrically opposed locations on the control gear and are adapted to be selectively engaged by movement of a single actuating slide to its operative position in response to energizing of an electromagnetic element with the control gear in its stop position or play position, respectively. Thus, merely by controlling the single actuating slide, particularly through selective energizing of the electromagnetic element, lead-in, return or reject and repeat operations of the record player can be simply achieved.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates generally to phonograph record players, and moreparticularly is directed to an improved phonograph record player controlmechanism for effecting lead-in movement of a tone arm from an elevatedrest position outside the perimeter of a turntable to a selectedset-down position on a record supported by the turntable so as tocommence a play operation, and for effecting a return movement of thetone arm to its rest position upon the termination of the playoperation.

2. Description of the Prior Art

Phonograph record players are known, for example, as disclosed in U.S.Pat. Nos. 3,311,380 and 3,599,984, in which a control gear having atoothless gap in its periphery is disposed, during a play operation,with such toothless gap facing a drive gear rotatable with theturntable, and in which, at the completion of a play operation, forexample, during the tracking by the stylus of a lead-out groove of aphonograph record, an electromagnet is energized to move a trip orclutch on the control gear to its operative position in which anabutment rotating with the drive gear acts against the trip forinitiating rotation of the control gear by which the tone arm isreturned to its rest position. However, the foregoing record playercontrol mechanisms do not employ similar arrangements for effecting theautomatic lead-in movement of the tone arm to a selected set downposition on the record.

In addition to the foregoing, so-called automatic phonograph recordplayers are known in which a control mechanism is provided for effectingautomatic lead-in movement of a tone arm from its elevated rest positionoutside the perimeter of a turntable to a selected set-down position ona record supported by the turntable so as to commence a play operation,and for effecting an automatic return movement of the tone arm to itsrest position upon the termination of the play operation. In such knowncontrol mechanism, for example, as disclosed in U.S. Pat. No. 3,438,635,a control gear with cam surfaces thereon for controlling the lateralswinging movements and the raising and lowering of the tone arm isprovided with first and second toothless gaps in its peripheral teethwhich respectively face toward a drive gear rotating with the turntablewhen the control gear is in stop and play positions thereof. In order toinitiate turning of the control gear from its stop position, a manuallyoperable control knob is actuated to displace a lever which thereby actsagainst an abutment on the control gear for angularly displacing thelatter so as to engage its peripheral teeth with the drive gear,whereupon the latter turns the control gear to its play position atwhich the second toothless gap confronts the drive gear and a singleclutch or trigger mechanism on the control gear is adjacent an abutmentor striker rotating with the drive gear. During the turning of thecontrol gear from its initial or stop position to the play position, thecam surfaces thereon are effective through link mechanisms to cause thelead-in movement of the tone arm to a selected set-down position on arecord for commencing a play operation. At the completion of a playoperation, a part of the link mechanism connected to the tone armactuates the clutch or trigger mechanism for engaging the latter withthe rotated striker in response to the positioning of the tone arm incorrespondence to the engagement of the stylus with the lead-out orfinal portion of the record groove so as to again initiate turning ofthe control gear by the drive gear for returning the control gear to itsinitial or stop position and thereby effecting the return movement ofthe tone arm. In the event that it is desired to effect a rejectoperation, that is, to cause the return movement of the tone arm priorto the completion of a play operation, the previously mentioned controlknob is again manually actuated for displacing the associated leverwhich, with the control gear in its play position, acts against theclutch or trigger mechanism for engaging the latter with the rotatedstriker and thereby initiating turning of the control gear from its playposition to its stop position. It will be seen from the foregoing thatthe described control mechanism of the prior art employs a manuallyactuable, multi-part mechanical arrangement for initiating a lead-in orreject operation and a separate mechanical arrangement for initiating anormal return operation at the completion of the playing of a record.Such control mechanism is disadvantageous in that the multi-partmechanical arrangement for initiating the lead-in and reject operationsis relatively costly to produce and assemble, and in that a relativelylarge force has to be manually applied to the control knob forinitiating such operations. Furthermore, due to the multi-part characterof the mechanical arrangement, an undesirable time delay occurs betweenthe application of force to the control knob and the initiation ofeither the lead-in movement of the tone arm or the return movement ofthe tone ar in a reject operation.

Although it has also been proposed in the prior art to provide a recordplayer control mechanism with a control gear having cams thereon foreffecting the lead-in and return movements of the tone arm, and with twoclutch or trigger mechanisms on the control gear which are respectivelyengaged for initiating the turning of the control gear during thelead-in and return operations, such existing control mechanism alsoemploys manually actuated multi-part mechanical arrangements foreffecting engagement of the clutch or trigger mechanisms. Therefore, acontrol mechanism of the last described type is also burdened by theabove mentioned disadvantages of the control mechanism disclosed in U.S.Pat. No. 3,438,635.

OBJECTS AND SUMMARY OF THE INVENTION

Accordingly, it is an object of this invention to provide a controlmechanism for a phonograph record player which overcomes the abovementioned disadvantages of the existing record player controlmechanisms.

More specifically, it is an object of this invention to provide arelatively simple and easily assembled record player control mechanismin which lead-in, return and reject operations can be rapidly effected.

Another object is to provide a record player control mechanism, asaforesaid, which is also adapted to rapidly effect repeat operations ofthe record player.

Still another object is to provide a record player control mechanism, asaforesaid, in which selected operations of the record player can beinitiated by the exertion of a relatively small manually applied forceto a switch actuator or actuators.

A further object is to provide a record player control mechanism, asaforesaid, in which clutch mechanisms are selectively engaged forinitiating lead-in and return movements, respectively, of the tone armby means of a single actuating slide which can be displaced to itsoperative or clutch engaging position by an electromagnetically producedforce.

In accordance with an aspect of this invention, a record player controlmechanism comprises a lever assembly which is angularly displaced by acam follower engaging in a cam groove of a control gear to effect thelead-in and return movements of the tone arm during turning of thecontrol gear by engagement of a drive gear with first and second sets,respectively, of teeth on the control gear which are separated by firstand second toothless gaps facing the drive gear in stop and playpositions, respectively, of the control gear, and lead-in and returnclutches mounted at diametrically opposed locations on the control gearand adapted to be selectively engaged by movement of a single actuatingslide to its operative position in response to energizing of anelectromagnetic element with the control gear in its stop or playposition, respectively. Thus, merely by controlling the single actuatingslide, particularly through selected energizing of the electromagneticelement, lead-in, return or reject and repeat operations of the recordplayer can be simply achieved.

The above, and other objects, features and advantages of this invention,will be apparent in the following detailed description of illustrativeembodiments thereof which is to be read in connection with theaccompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a phonograph record player according tothis invention;

FIG. 2 is a top plan view of the record player of FIG. 1 with itsturntable and an upper panel of its cabinet being partly broken away;

FIG. 3 is a side elevational view of a tone arm assembly and a controlmechanism of the record player of FIGS. 1 and 2;

FIG. 4 is a side elevational view of the tone arm assembly and of an armlifter and cueing control for the tone arm which are shown in section;

FIGS. 5A and 5B are plan views showing the control mechanism of therecord player in its stop or rest condition and in its play condition,respectively;

FIG. 6 is a detail sectional view taken along the line VI--VI on FIG.5A;

FIGS. 7A-7E are plan views particularly showing a control gear, a mainlever and a lead-in lever of the record player control mechanism invarious positions of the control gear for illustrating the manner inwhich the main lever and lead-in lever are driven;

FIGS. 8A-8C are plan views illustrating the operation of a return drivemember of a tone arm drive mechanism in several positions of the controlgear;

FIG. 9 is a perspective view illustrating the braking mechanism and therelation of the latter to the tone arm assembly;

FIG. 10 is an enlarged detail sectional view taken along the line X--Xon FIG. 9;

FIG. 11 is an exploded perspective view showing elements of the tone armdrive mechanism;

FIG. 12 is a plan view of a record size selecting mechanism;

FIGS. 13 and 14 are plan views showing lead-in and return clutchmechanisms associated with the control gear and an actuator for suchclutch mechanisms, with the control gear being illustrated in its stopposition and in its play position, respectively;

FIG. 15 is a view similar to a portion of FIGS. 13 and 14, but showingthe condition of the clutches in the course of the return movement ofthe control gear;

FIG. 16 is a sectional view taken along the line XVI--XVI on FIG. 13;

FIG. 17 is a schematic, fragmentary plan view showing a modification ofthe control mechanism by which the end of a play operation iselectro-magnetically detected;

FIG. 18 is a block diagram of a circuit that may be used in associationwith the arrangement of FIG. 17 for the electro-magnetic detection ofthe end of a play operation;

FIG. 19 is a fragmentary plan view showing an additional switchassociated with the control mechanism for detecting the completion of areturn operation in order to effect an automatic repeat operation of therecord player;

FIG. 20 is a diagrammatic view of a circuit that may be used inassociation with the arrangement of FIG. 19 and for obtaining theautomatic repeat operation of the record player and;

FIGS. 21 and 22 are detail plan views showing respective modificationsof the record player control mechanism for minimizing delays ininitiating lead-in and return operations thereof.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to the drawings in detail, and initially to FIG. 1 thereof, itwill be seen that a fully automatic record player 10 according to anembodiment of this invention is there illustrated to comprise a cabinet11 having a deck or upper panel 12 and a pivoted dust cover 13 forenclosing a space above upper panel 12, a turntable 14 which isrotatably supported above upper panel 12 on a driving shaft or spindle15, and a tone arm assembly 16 mounted, as hereinafter described, on atone arm support bracket 17 which is secured to a rear portion of upperpanel 12 adjacent the perimeter of turntable 14. A start-stop switchactuator 18, a repeat switch actuator 19 and a power ON-OFF switchactuator or knob 20 are mounted at a front panel 21 of cabinet 11adjacent one side of the latter, and a record size selecting knob 22 ismounted on the front portion of upper panel 12 adjacent the same side ofthe cabinet as switch actuators 18-20. Switch controlling push-buttons23 and 24 extend upwardly from the front portion of upper panel 12adjacent the side of cabinet 11 remote from knob 22 and are selectivelyactuable for determining the speed of rotation of turntable 14, andknobs 25 and 26 are mounted adjacent push-buttons 23 and 24,respectively, and are selectively rotatable for effecting fineadjustment of the turntable speeds determined by selective actuation ofthe respective push-buttons.

As shown particularly on FIG. 3, tone arm assembly 16 conventionallyincludes an elongated tone arm 27 mounted adjacent one end, as by agimbal 28, on the upper end of a vertical shaft 29 which is rotatable insuitable bearings carried by support bracket 17, a counter-weight 30extending from the mounted end of tone arm 27, and a head-shell 31extending from the opposite or free end of tone 27 to accommodate acartridge 32 from which a stylus or needle 33 depends. By reason of theabove mounting of tone arm assembly 16, tone arm 27 is capable oflateral swinging movement about the vertical axis of shaft 29 acrossturntable 14 and also is capable of being raised and lowered about thehorizontal axis of gimbal 28 relative to turntable 14 between anelevated rest position outside the perimeter of the turntable where tonearm 27 may be disposed on an arm rest 34, as shown on FIG. 1, and aninner position, for example, as indicated in broken lines at 16' on FIG.19 and which corresponds to the engagement of the stylus 33 of pickup 32in the conventional final non-recorded groove portion of a record R(FIG. 3) on turntable 14.

A chassis 35 (FIGS. 2 and 3) is suitably suspended under upper panel 12of cabinet 11, and an electric motor (FIG. 2) is mounted below a portionof chassis 35 and directly drives the driving shaft 15 on whichturntable 14 is mounted. An arcuate arm lifter 37 (FIGS. 1,3 and 4)extends under tone arm 27 in all positions of the latter and is mountedon the upper end of a vertically movable shaft 38 which is slidable in abearing 39 (FIG. 4) formed in a portion of support bracket 17 offsetforwardly from shaft 29. It will be apparent that tone arm 27 is raisedand lowered, for example, between the positions shown in full and brokenlines on FIG. 4, in response to vertical movements of shaft 38 and ofthe arm lifter 37 therewith. As will be apparent hereinafter, the recordplayer 10 is capable of either fully automatic operation or manualoperation in dependence on the positioning of record size selecting knob22. When manual operation is selected, the vertical movements of armlifter 37, and hence the raising and lowering of tone arm 27, may beeffected by a manually actuable cueing control handle 40 (FIG. 1) whichis adapted to turn a shaft 41 journalled in support bracket 17 (FIG. 4)and carrying a cam 42 disposed under an abutment 43 on shaft 38. It willbe apparent that, in response to turning of shaft 41 by handle 40, cam42 acts against abutment 43 to determine the vertical position of armlifter 37.

The illustrated record player 10 according to this invention furthercomprises an automatic control mechanism 44 which is shown on FIG. 2 togenerally comprise a control gear assembly 45 operable from the drivingshaft or spindle 15, an actuating slide 46 for initiating operations ofcontrol gear assembly 45, a main lever 47 movable in response tooperation of control gear assembly 45, a lead-in lever 48 adapted to becoupled with main lever 47 for following the movement of the latterduring swinging or lead-in of tone arm 27 to a predeterminedstart-of-play or set-down position of the stylus on a record R, a recordsize selecting mechanism 49 for determining such start-of-play orset-down position under the control of knob 22, and a brake mechanism 50for frictionally braking the swinging movement of tone arm 27 duringlead-in of the latter from its rest position to the predeterminedset-down position and during the return swinging movement of the tonearm to its rest position. Furthermore, as shown on FIGS. 5A and 5B,automatic control mechanism 44 generally comprises a tone arm drivemechanism 51 through which the lead-in and return swinging movements oftone arm 27 are effected in response to corresponding movements of mainlever 47 and lead-in lever 48.

As shown particularly on FIGS. 15 and 16, the control gear assembly 45includes a drive gear or pinion 52 secured on driving shaft 15 abovechassis 35, and a driven or control gear 53 which is rotatably mountedon a shaft 54 which projects upwardly from chassis 35. The upper portionof the periphery of control gear 53 is formed with two sets of gearteeth 55a and 55b each extending along slightly less than one-half ofthe circumference of gear 53, with the sets of gear teeth 55a and 55bbeing separated from each other by diametrically opposed toothless gaps56a and 56b. The shaft 54 supporting control gear 53 is positioned inrespect to driving shaft 15 so as to provide meshing engagement ofpinion 52 with the set of teeth 55a or 55b when the respective set ofteeth faces toward shaft 15 so as to drive gear 53 from the latter;whereas, shaft 15 and pinion 52 can continue to rotate with control gear53 remaining at rest when such gear 53 is disposed with either thetoothless gap 56a and 56b facing toward shaft 15, as shown on FIGS. 5Aand 5B, respectively. During the engagement of gear teeth 55a withpinion 52 and the corresponding one-half revolution or lead-in movementof control gear 53, control mechanism 44 effects the lead-in of tone armassembly 16 from its rest position to the predetermined set-downposition of the stylus on a record and, during the engagement of gearteeth 55b with pinion 52 and the corresponding one-half revolution orreturn movement of gear 53, control mechanism 44 effects the return oftone arm assembly 16 to its rest position, as hereinafter described indetail.

In order to effect the lead-in and return swinging movements of tone armassembly 16 in response to turning of control gear 53, a cam groove 57is formed in control gear 53 and opens downwardly at the lower surfaceof the latter (FIG. 16). As shown particularly on FIGS. 7A-7E and 8A-8C,cam groove 57 is heart-shaped so as to include cam groove portions 57aand 57b which are symmetrical to each other and respectively operativeto effect the lead-in and return swinging movements of tone arm assembly16. By reason of the heart-shaped configuration of cam groove 57, aninverted cusp or depression 57c is defined in the outer wall surface ofcam groove 57 at the connection of cam groove portion 57a to cam grooveportion 57b, and a similar inverted cusp or depression 57d is formed inthe inner wall surface of cam groove 57 at the connection of cam grooveportion 57b to cam groove portion 57a. The periphery of the lowerportion of the control gear 53 defines a radial cam 58 (FIGS. 7A-7E) forcontrolling a micro-switch SW₁ mounted on chassis 35 (FIG. 6), and suchradial cam is comprised of a radially raised cam portion 58a actuatingswitch SW₁ during the lead-in movement of control gear 53, and aradially depressed cam portion 58b extending over the remainder of theperiphery of control gear 53 so as to determine the state of switch SW₁in the stop and play positions of gear 53, that is, when the toothlessgap 56a or 56b faces toward pinion 52 (FIGS. 7A and 7C) and during thereturn movement of gear 53 at the conclusion of a record playingoperation (FIGS. 7D and 7E). Thus, switch SW₁, when actuated by camportion 58a, detects the lead-in operation of record player 10. Finally,as shown in broken lines on FIG. 5A, a pair of pins 59a and 59b dependfrom the lower surface of control gear 53 at diametrically opposedlocations that are slightly in advance of the locations of toothlessgaps 56b and 56a, respectively, considered in the counterclockwisedirection of rotation of control gear 53, as viewed from above.

In order to initiate the lead-in movement of control gear 53 from itsstop position (FIG. 5A) in which toothless gap 56a faces pinion 52, andthe return movement of gear 53 from its play position (FIG. 5B) in whichtoothless gap 56b faces pinion 52, control gear assembly 45 is furthershown to comprise lead-in and return clutch mechanisms 60 and 61,respectively, which are substantially diametrically opposed on the flatupper surface of control gear 53. As shown particularly on FIGS. 13,14and 15, lead-in clutch mechanism 60 may be in the form of a one-piecemolded plastic lever pivoted, intermediate its ends, on a pin 62projecting upwardly from control gear 53 and having oppositely directedarms 60a and 60b which are at an angle to each other. The end of leverarm 60b has a cutout 60c therein which loosely receives a pin 63projecting upwardly from control gear 53 for limiting the angularmovement of lead-in clutch mechanism 60 to the engaged and disengagedpositions shown in full and broken lines respectively on FIG. 13. Clutchmechanism 60 further has a cam portion 60d extending outwardly from arm60a so as to project radially beyond the teeth 55b of control gear 53when clutch mechanism 60 is in its engaged position. As shown, lead-inclutch mechanism 60 is dimensioned and its pivot pin 62 is located sothat, in the engaged position of such clutch mechanism indicated in fulllines on FIG. 13, the free end of lever arm 60a projects above toothlessgap 56a of control gear 53. Finally, a projection 60e depends from leverarm 60a and extends downwardly through a hole 64 formed in control gear53 (FIG. 16) so as to be actuable by slide 46, as hereinafter describedin detail.

The return clutch mechanism 61 is shown to include an upper engagingmember 65 superposed on a lower cam member 66, with both members 65 and66 being pivotally mounted, intermediate their ends, on a pivot pin 67projecting from the upper surface of control gear 53 so that engagingmember 65 and cam member 66 are angularly displaceable relative to eachother and relative to gear 53. As shown, the upper engaging member 65 issubstantially in the form of a lever having oppositely directed arms 65aand 65b which are at an angle to each other, with engaging member 65being dimensioned and the pivot pin 67 being located so that, in anengaged position of clutch mechanism 61, as indicated in broken lines at61' on FIG. 14, the free end of arm 65a projects above toothless gap 56bof control gear 53. The angular displacement or swinging movement ofengaging member 65 relative to control gear 53 between its engagedposition shown in broken lines on FIG. 14 and on FIG. 15 and itsdisengaged position shown in full lines on FIGS. 13 and 14 is limited bya tab 65c directed downwardly from the free end of lever arm 65b andengaging loosely in a hole 68 formed in control gear 53. The angulardisplacement of engaging member 65 and cam member 66 relative to eachother is limited by engagement, in a hole 65d formed in lever arm 65b,of an upwardly struck tab or projection 66a extending from theunderlying cam member 66. The portion of the cam member 66 which extendsfrom pivot pin 67 in the same general direction as lever arm 65a isformed with a downwardly directed projection 66b which passes through ahole 69 in control gear 53 so as to be actuable by slide 46, ashereinafter described in detail. When member 66 is thus actuated, a camportion 66c thereof is made to project radially beyond teeth 55a on gear53, as shown on FIG. 15, and engaging member 65 is moved to its engagedposition through the lost-motion connection provided between members 65and 66 by the engagement of projection 66a in hole 65d.

Control gear assembly 45 is completed by an abutment or nose 52aextending radially outward from a rim 52b provided integrally withpinion 52 at the top of the latter. Thus, when lead-in clutch mechanism60 is displaced to its engaged position with gear 53 in its stopposition (FIG. 13), abutment 52a in rotating with pinion 52 acts on theend of lever arm 60a to propel the latter longitudinally and therebyinitiate turning of gear 53 until gear teeth 55a mesh with pinion 52 foreffecting the lead-in movement of gear 53. Similarly, when return clutchmechanism 61 is displaced to its engaged position with gear 53 in itsplay position (FIG. 14), abutment 52a acts on the end of lever arm 65ato propel the latter longitudinally and thereby initiate turning of gear53 until gear teeth 55b mesh with pinion 52 for effecting the returnmovement of gear 53.

As shown particularly on FIG. 16, actuating slide 46 is constituted byan elongated member formed with a step at its middle portion so as tohave upper and lower horizontal portions 46a and 46b respectivelydisposed above and below chassis 35 and being connected by a verticalportion 46c which extends through an opening 70 in the chassis. Upperhorizontal portion 46a extends between chassis 36 and the underside ofcontrol gear 53 and is formed with an elongated hole 71 through whichshaft 54 extends. An elongated hole 72 (FIGS. 13,14 and 16) is formed inlower horizontal portion 46b and receives a guide roller 73 carried by apost 74 depending from chassis 35. Further, a ball receiver 75 is fixedon chassis 35 under control gear 53 and is formed with a slit 75a alongwhich a steel ball 76 free to roll, and the free end portion of upperhorizontal portion 46a is formed with a slit 46d aligned with slit 75aand also receiving ball 76, from which it follows that actuating slide46 is guided for free longitudinal sliding movement in respect tochassis 35 between operative and inoperative positions respectivelyshown in full lines on FIGS. 13 and 14. Further, the free end of upperhorizontal portion 46a of slide 46 is formed with an upwardly directed,V-shaped projection 46e which is selectively engageable with theprojection 60e of clutch mechanism 60 when control gear 53 is in itsstart portion (FIG. 5A), or with the projection 66b of clutch mechanism61 when control gear 53 is in its play position (FIG. 5B) for actuatingthe respective clutch mechanism 60 or 61 to its engaged position inresponse to longitudinal movement of actuating slide 46 from itsinoperative position to its operative position. It is also to be notedthat the previously described pins 59a and 59b depending from controlgear 53 are radially positioned with respect to the axis of the latterso that, near the conclusion of the lead-in movement or the returnmovement of control gear 53 resulting from the meshing of its gear teeth55a or 55b, respectively, with pinion 52, the pin 59a or 59b,respectively, will act against a sloping flank of the V-shapedprojection 46e on actuating slide 46 for returning the latter from itsoperative position shown on FIG. 18 to its inoperative position shown onFIGS. 5A,5B and 19.

As shown particularly on FIG. 16, an electromagnet 77 is supported by abracket 78 at the underside of chassis 35 adjacent opening 70 so that,upon energizing of electro-magnet 77, the latter will attract thevertical portion 46c of actuating slide 46 and thereby move the lattertoward the left, as viewed on the drawing, for displacement of slide 46from its inoperative position to its operative position.

As shown most clearly on FIGS. 7A-7E and 8A-8E, the main lever 47, whichis disposed above chassis 35, is pivoted, intermediate its ends, on theupper portion of a pivot pin 79 supported by chassis 35 at a locationbetween shaft 54 of control gear 53 and support shaft 29 of tone armassembly 16. Main lever 47 includes an arm 80 extending in the directionfrom pivot pin 79 under control gear 53, and such arm 80, at its freeend, carries a cam follower roller 81 which engages in cam groove 57 forangularly displacing main lever 47 between a stop position (FIG. 7A) anda play position (FIG. 7C) in response to turning of control gear 53.Main lever 47 is further shown to include an arm 82 extending from pivotpin 79 substantially in the direction opposed to arm 80 and reachingunder shaft 38 of arm lifter 37 so as to support shaft 38 at the lowerend of the latter (FIG. 4). At the portion of lever arm 82 where thelatter is engaged by shaft 38, an extension 83 is directed rearwardlyfrom lever arm 82 and terminates in a downwardly inclined ramp 84 whichmoves under shaft 38 in the play position of main lever 47 (FIG. 7C).Thus, arm 82 of main lever 47 supports shaft 38 and arm lifter 37 in anelevated position corresponding to the raised position of tone arm 16shown in full lines on FIG. 4 when main lever 47 is in its stop position(FIG. 7A) and during lead-in and return movements of main lever 47 (FIG.7B). However, at the conclusion of lead-in movement of main lever 47,that is, when lever 47 attains its play position (FIG. 7C), downwardlyinclined ramp 84 moves under shaft 38 to permit downward movement of thelatter and of arm lifter 37 therewith so that tone arm 27 is lowered tothe position indicated in broken lines on FIG. 4 for engaging the stylus33 with a record R on turntable 14. The outer or free end portion oflever arm 82 is substantially L-shaped to provide a rearwardly directedextension 85 which, with previously mentioned extension 83, defines acutout 86 therebetween through which tone arm support shaft 29 canextend (FIG. 7A).

As shown particularly on FIGS. 9 and 10, tone arm drive mechanism 51includes upper and lower generally sector-shaped members 86 and 87,respectively, mounted on the lower end portion of tone arm support shaft29 so as to be turnable about the axis of the latter. A boss 88 issecured to shaft 29, as by a set screw 89 (FIG. 10), and the lowersector-shaped member 87 is suitably fixed to the lower end of boss 88 soas to be rotatably coupled with shaft 29. Boss 88 is further shown tohave a reduced diameter portion 88a above member 87 which is turnablyreceived in a hole in sector-shaped member 86 so that the latter isangularly displaceable about the axis of shaft 29 relative to the latterand to the lower sector-shaped member 87. A tension spring 90 isconnected between a radially extending arm 87a on member 87 and ananchor 86a on member 86 for urging the latter to turn in the clockwisedirection, as viewed on FIGS. 5A,5B and 9, relative to member 87. Anadjustable limit screw 91 (FIG. 10) extends through a tapped hole in atab 87b depending from an edge of sector-shaped member 87 and isengageable against a tab 86b depending from sector-shaped member 86 foradjustably limiting the angular displacement of member 86 relative tomember 87 under the urging of spring 90. Pins 92 and 93 are directedupwardly from sector-shaped member 86 at spaced apart locations adjacentthe periphery of the latter. As hereinafter described in detail, pin 92is adapted to be acted upon for causing the lead-in and return swingingmovements of tone arm assembly 16. On the other hand, pin 93 ispositioned so that it may act against the free end 46f of lowerhorizontal portion 46b of actuating slide 46 for mechanically effectingthe movement of the latter from its inoperative positions to itsoperative position when tone arm assembly 16 is angularly displaced, atthe conclusion of a record playing operation, to the position indicatedin broken lines at 16' on FIG. 14 and which corresponds to theengagement of the stylus in the final non-recorded turns of the recordgroove.

In order to ensure that manual interference with the lead-in or returnswinging movements of tone arm 16 will not cause damage to automaticcontrol mechanism 44, the tone arm drive mechanism 51 is further shownto comprise a hooked lead-in drive member 94 and a return drive member95 (FIGS. 5A,5B and 11). As shown particularly on FIG. 11, lead-in drivemember 94 is pivotally mounted on, and extends rearwardly from a pivotpin 96 directed upwardly from extension 85 of main lever 47. A torsionspring 97 extends around pivot pin 96 and has legs 97a and 97b whichrespectively engage a keeper 98 on main lever 47 and a pin 99 dependingfrom drive member 94 so that spring 97 urges drive member 94 in thecounter-clockwise direction relative to lever extension 85, as viewed onFIGS. 5A and 5B, whereby to normally engage drive member 94 with a stoppin 100 on lever extension 85. The free or rear end portion of drivemember 94 has a nose or barb 101 extending from the side thereof facingin the direction in which drive member 94 is urged by spring 97, andsuch nose 101 is shown to have angled flanks 101a and 101b.

The return drive member 95 is shown to include a generally sector-shapedplate which, at its apex, is provided on a pin 102 depending from leverextension 85, and which has an arcuate slot 103 concentric with thepivoting axis of drive member 95 and slidably receiving a pin 104depending from lever extension 85 for limiting the pivotal movement ofdrive member 95 in respect to lever extension 85. An abutment 105 isdirected laterally outward from the sector-shaped plate of drive member95 for engagement with pin 92 on member 86 in effecting the returnswinging movement of tone arm assembly 16, as hereinafter described indetail. Further, a toggle spring 106 is provided with eyes 106a and 106bat its opposite ends which respectively engage a pin 107 depending fromdrive member 95 and the lower end of the pin 104 received in arcuateslot 103. The pin 107 is disposed so as to be substantially on a linewith pin 104 and pin 102 defining the pivoting axis of drive member 95when pin 104 is substantially at the center of arcuate slot 103, andtoggle spring 106 urges pins 104 and 107 away from each other.Therefore, toggle spring 106 may urge drive member 95 to an extendedposition, as shown on FIG. 5B and in full lines on FIGS. 8A and 8B, inwhich pin 104 engages one end of slot 103 and abutment 105 extendssubstantially outward from lever extension 85 so as to be engageablewith pin 92, as hereinafter described. Alternatively, toggle spring 106may urge drive member 95 to a retracted position, as shown on FIG. 5Aand in full lines on FIG. 8C, in which pin 104 engages the other end ofslot 103 and abutment 105 is near to the outer edge of lever extension85 so as to be movable past pin 92 without engaging the latter. As shownon FIGS. 5A and 5B, chassis 35 is provided with a projection 108engageable with the abutment 105 of drive member 95 for displacing thelatter at least half-way from its retracted position to its extendedposition, and thereby permitting toggle spring 106 to complete themovement of drive member 95 to its extended position in response tomovement of drive member 95, in its retracted position, with main lever47 to the conclusion of the lead-in movement of such main lever.

The lead-in lever 48 which is disposed below chassis 35 is shown to bepivotally mounted, at one end, on the same pivot pin 79 as main lever 47(FIGS. 5A,5B and 7A-7E). Lead-in lever 48 is shown to extend in back oftone arm support shaft 29, and the free end portion of lever 48 isprovided with a forwardly directed extension 48a which is engageablewith pin 92 on member 86 for effecting the lead-in swinging movement oftone arm assembly 16 as hereinafter described in detail. A coupling pin109 is directed upwardly from the free end portion of lead-in lever 48through a cutout 35a (FIG. 2) in chassis 35, and such coupling pin 109is engageable by nose 101 of lead-in drive member 94 (FIG. 7B) forcausing lead-in lever 48 to follow the lead-in movement of main lever 47to the extent that record size selecting mechanism 49 permits suchmovement of lead-in lever 48. A portion 110 of chassis 35 (FIGS. 2,5Aand 5B) which defines the back edge of cutout 35a acts as an abutmentengageable by pin 109 on lead-in lever 48 for limiting the returnswinging movement of lever 48 in the counterclockwise direction asviewed on FIG. 5A.

In order to ensure that lead-in lever 48 will be smoothly swingableabout pivot pin 79, a flanged guide roller 111 is rotatably mounted onthe upper surfave of the central portion of lever 48 and engages in anelongated arcuate slot 112 formed in chassis 35 so as to be concentricwith pivot pin 79. Smooth swinging movement of main lever 47 issimilarly ensured by a pin 113 depending from the middle portion of arm82 of lever 47 and slidably engagingin arcuate slot 112 with a washer onpin 113 being interposed between lever 47 and chassis 35.

Main lever 47 is further shown to include an arm 114 directed rearwardlyfrom pivot pin 79 substantially at right angles to arms 80 and 82. Inorder to detect a play operation of record player 10, a pin 115 dependsfrom arm 114 of main lever 47 through an arcuate slot 116 formed inchassis 35, as shown in broken lines on FIGS. 5A and 5B, and such pin115 is adapted to actuate a micro-switch SW₂ suitably mounted belowchassis 35. More particularly, switch SW₂ is disposed so as to beactuated by pin 115 and thereby detect the play operation of recordplayer 10 when main lever 47 is positioned as shown on FIG. 7C, that is,when main lever 47 is disposed by cam 57 in the position correspondingto the play position of control gear 53 in which the toothless gap 56bof the latter faces toward pinion 52.

As shown on FIG. 12', the record size selecting mechanism 49 maycomprise a generally sector-shaped size selecting cam member 117 whichis disposed below chassis 35, and which is pivoted on a pin 117adepending from the chassis. The record size selecting knob 22 is fixedon the upper end of a shaft 118 which is suitably journalled in upperpanel 12 and which, at its lower end, has a radial arm 119 secured toshaft 118. The outer end of arm 119 is pivotally connected, as at 120,to the forward end of an elongated link 121 which extends rearwardly tothe size selecting cam member 117.

The generally arcuate edge of sector-shaped size-selecting cam member117 is shown to be formed with four stopper edge portions 126a,126b,126cand 126d which are formed at equal angular intervals along arcs ofrespective circles at progressively increasing radial distances from thepivot pin 117a for establishing the set-down positions for recordshaving diameters of 17cm., 25cm. and 30cm. and for selecting manuallead-in operation of the record player, respectively. It will beapparent that, in response to rotation of knob 22 to a selected positionindicated by the associated indicia on upper panel 12 of the cabinet,cam member 117 is similarly positioned to dispose a respective one ofstopper edge portions 126a-126d at the operative position.

Further, in order to limit the swinging of lead-in lever 48 with mainlever 47 during the lead-in movement of the latter, an abutment member127 extends upwardly from a forwardly directed extension 48b at themiddle portion of lead-in lever 48 and is engageable with the one ofstopper edge portions 126a-126d then disposed at the operative position.In order to permit such rotational adjustment of abutment member 127,head 128 thereof is formed with a slot 128a in its top surface which maybe engaged by the blade of a screw driver or other tool inserted througha hole 134 (FIGS. 5A and 7A) in main lever 47. The hole 134 ispositioned, as shown, to provide access to the slot 128a of head 128when main lever 47 is in its stop position and, of course, similar holes(not shown) are provided in upper panel 12 and in chassis 35 forregistration with hole 134 in the stop position of main lever 47.

In order to detect when the manual lead-in operation of record player 10has been established, a microswitch SW₃ is suitably mounted underchassis 35 (FIGS. 5A and 12) so as to be actuated by a radial or sideedge 135 of size-selecting cam member 117 when the latter is disposed,as indicated in broken lines at 117d on FIG. 12, for locating itsstopper edge portion 126d at the operative position.

As shown particularly on FIG. 9, the brake mechanism 50 desirablyincludes a generally T-shaped brake operating lever 136 pivotallymounted under chassis 35 on a pivot pin 137 depending from the latter,and a brake operating lever 138 also disposed below chassis 35 and beingpivoted, at one end, on pin 137. Lever 136 is shown to have angularlyrelated arms 136a,136b and 136c extending from its pivoting axis, and atension spring 139 is connected between a pin 140 on the free end of arm136c and an anchor pin 141 depending from chassis 35 for urging lever136 in the counter-clockwise direction, as viewed on FIGS. 5A and 5B.

In order to control the position of brake operating lever 136 independence on the position of main lever 47, a pin 142 depends from thefree end portion of rearwardly directed arm 114 of main lever 47 andextends downwardly through an arcuate slot 143 formed in chassis 35 soas to be concentric with the axis of pivot pin 79, as indicated inbroken lines on FIGS. 5A and 5B. At its lower end, pin 142 carries arotatable roller 144 which is engaged by either an oblique end edge 145or a contiguous longitudinal side edge 146 of lever arm 136a under theurging of spring 139 on brake operating lever 136. Arm 136a of lever 136is dimensioned and pivot pin 137 for such lever is located so that, whenmain lever 47 is in its stop position (FIG. 5A), roller 144 engagesoblique end edge 145 of lever arm 136a and so that, as main lever 47moves from its stop position (FIG. 5A) to its play position (FIG. 5B),that is, during the lead-in movement of main lever 47, roller 144 movesoff oblique end edge 145 and then along contiguous side edge 146 forinitially turning lever 136 in the clockwise direction against the forceof spring 139 and then permitting spring 139 to restore lever 136 to itsoriginal position.

Referring to FIG. 9, it will be seen that brake lever 138 is urged tofollow such clockwise movement of brake operating lever 136 by a tensionspring 147 connected between lever 138 and arm 136b. A limit screw 148extends threadably through a tapped hole in a tab 149 depending from aside edge of lever 138, and such limit screw 148 is engageable, at itsend, against an abutment or lug 150 provided at the free end of leverarm 136b for adjustably limiting the angular displacement of brake lever138 relative to operating lever 136 under the urging of spring 147.Finally, a brake pad or shoe 151 is mounted at the free end of brakelever 138 for frictional braking engagement with the circumferentialsurface of boss 88 on tone arm support shaft 29, for example, as shownon FIGS. 7B, 7D and 7E when brake operating lever 136 is turned in theclockwise direction against the force of spring 139. It will be apparentthat the adjustment of limit screw 148 determines the initial angularposition of brake lever 138 relative to operating lever 136, is thuseffective to regulate the braking force applied by brake shoe or pad 151to collar or boss 88 when brake operating lever 136 is angularlydisplaced in the clockwise direction by roller 144 on main lever 47 forapplying the brake mechanism, that is, engaging brake pad 151 with boss88.

It is further to be noted that, when control gear 53 is in its stopposition (FIG. 7A), the force of spring 139 acting on lever 136 causesoblique end surface 145 of lever arm 136a to apply a force F₁ to roller144 which is directed to urge main lever 47 in the counterclockwisedirection about pivot 79. As a result of the urging of lever 47 in thecounterclockwise direction cam follower roller 81 is pressed into theinverted cusp or depression 57d defined in the inner wall surface of camgroove 57, whereby to prevent inadvertent movement of control gear 53from its stop position in which toothless gap 56a faces pinion 52. Onthe other hand, when control gear 53 is in its play position (FIG. 7C),the force of spring 139 acting on lever 136 causes side surface 146 oflever arm 136a to exert a force F₂ on engaged roller 144, which force F₂is directed to urge main lever 47 in the clockwise direction. Suchclockwise urging of main lever 47 presses cam follower roller 81 intothe inverted cusp or depression 57c formed in the outer wall surface ofcam groove 57 and thus prevents inadvertent angular displacement ofcontrol gear 53 from its play position in which the toothless gap 56bfaces pinion 52. Accordingly, the engagement of lever 136 with roller144 on main lever 47 serves the dual functions of controlling theoperation of brake mechanism 50 in response to the lead-in and returnmovements of main lever 47, and of ensuring that control gear 53 will beimmovably positioned at its stop position or at its play position untilsuch time as the lead-in movement or return movement of control gear 53is positively initiated by engagement of the clutch 60 or 61,respectively.

The above described record player 10 according to this inventionoperates as follows:

STOP CONDITION

In the stop condition of record player 10, power ON-OFF switch actuatoror knob 20 is in its OFF position whereby to deenergize motor 36.Further, in the stop condition of record player 10, control gearassembly 45, actuating slide 46, main lever 47, lead-in lever 48, brakemechanism 50 and tone arm drive mechanism 51 are all in the relativepositions shown on FIGS. 5A and 7A. Since vertically movable shaft 38 ofarm lifter 37 rests on the horizontal surface of arm 82 of main lever47, as shown in full lines on FIG. 4, shaft 38 is located at its raisedposition with the result that arm lifter 37 contacts, or is adjacent tothe lower surface of tone arm 27 which is resting on arm rest 34.Further, as previously described, by reason of the force F₁ applied bybrake operating lever 136 to roller 144 on main lever 47, cam followerroller 81 is securely urged into the inverted cusp or depression 57d inthe inner wall surface of cam groove 57 for positively holding controlgear 53 in its stop position with toothless gap 56a facing toward pinion52. Thus, control gear 53 cannot be inadvertently displaced from itsstop position by impacts or shocks applied to the record player, andthus control gear 53 will not be accidentally rotated by pinion 52 whenmotor 36 is initially energized.

FULLY AUTOMATIC OPERATION

Prior to initiating fully automatic operation of record player 10,record size selecting knob 22 is turned to the position thereofcorresponding to the diameter of a record R which has been placed onturntable 14 so that the respective one of stopper edge portions126a-126c of cam member 117 is disposed at the operative position. Withthe record player in its stop condition, the manipulation of powerON-OFF switch actuator 20 to its ON position merely supplies power tothe circuits (not shown) of the record player. However, motor 36 remainsdenergized, and hence turntable 14 remains at rest, until start-stopswitch actuator 18 is manipulated or touched to initiate an automaticoperation of the record player.

LEAD-IN OPERATION

Upon such manipulation of switch actuator 18, motor 36 is energized forrotating driving shaft 15 and turntable 14 at a predetermined speed inthe direction of the arrow c on FIG. 2. The manipulation or touching ofswitch actuator 18 further causes the momentary energizing ofelectromagnet 77 for attracting the vertical portion 46c of actuatingslide 46 and thereby displacing the latter in the direction of actuatingslide 46, projection 46e at the end of horizontal slide portion 46a actsagainst projection 60e of clutch mechanism 60 for displacing the latterto its engaged position shown in full lines on FIG. 13. In such engagedposition of clutch mechanism 60, the free end of its arm 60a is urgedagainst the rim 52b at the top of pinion 52 so as to be interposed inthe path of movement of abutment 52a with pinion 52. Accordingly, asabutment or nose 52a rotates in the direction of the arrow c on FIG. 13with pinion 52 on driving shaft 15 such abutment 52a comes intoengagement with the end of arm 60a and pushes the latter longitudinallyin the direction of the arrow e (FIG. 13). The resulting incrementalrotation of control gear 53 in the direction of the arrow f issufficient to displace toothless gap 56a away from pinion 52 and tocause meshing engagement of the latter with teeth 55a. Upon theengagement of teeth 55a with pinion 52, drive gear 53 is rotated in thedirection of arrow f through an angular displacement of 180°. Duringsuch angular displacement or lead-in movement of control gear 53, pin59a depending therefrom moves against one of the sloping or slantingflanks of V-shaped projection 46e on actuating slide 46 to exert a camaction on the latter for returning the slide 46 to its inoperativeposition shown in broken lines on FIGS. 13 and 16. It will be notedthat, by the time pin 59a is thus effective to return slide 46 to itsinoperative position, electromagnet 77 is deenergized. During thelead-in movement of control gear 53 through the angular extent of 180°,depression or inverted cusp 57d moves away from cam follower roller 81and the latter is guided by cam groove portion 57a (FIG. 7B) until, atthe completion of the lead-in movement of gear 53, roller 81 engagesinverted cusp or depression 57c (FIG. 7C). Further, at the start of thelead-in movement of control gear 53, switch SW₁ is actuated by theradially raised cam portion 58a for electrically detecting the lead-inoperation of the record player.

During the guiding of cam follower roller 81 by cam groove portion 57ain the course of the lead-in movement of control gear 53, roller 81 isdisplaced in the direction of the arrow g away from shaft 54 (FIG. 7B)so as to effect angular displacement or lead-in movement of main lever47 in the direction of the arrow h (FIG. 7B) from the position shown onFIG. 7A to the position shown on FIG. 7C.

It is to be noted that the lead-in movement of tone arm 27 to theset-down position predetermined by the setting of record size selectingmechanism 49 is completed prior to the arrival of main lever 47 at theextreme or play position shown on FIG. 7C. More particularly, as mainlever 47 is turned in the direction of the arrow h from the positionthereof shown on FIG. 7A, the flank 101a of nose 101 on hooked lead-indrive member 94 on lever 47 is moved against coupling pin 109 on lead-inlever 48 (FIG. 7B) so that lead-in lever 48 is thereafter urged to movewith main lever 47 in the direction of arrow h. As lead-in lever 48 ismoved with main lever 47 in the direction of the arrow h on FIG. 7B,forwardly directed extension 48a of the lead-in lever engages pin 92 onupper sector-shaped member 86 for turning the latter in the clockwisedirection about the axis of shaft 29. Such turning of uppersector-shaped member 86 is transmitted to lower sector-shaped member 87which is fixed relative to shaft 29 through the engagement of tab 86b onmember 86 with limit screw 91 carried by member 87. Thus, so long aslead-in lever 48 is turned with main lever 47 in the direction of arrowh on FIG. 7B, tone arm support shaft 29 is turned in the direction toeffect lead-in movement of tone arm 27, as indicated by the arrow i onFIG. 2. During such lead-in movement of tone arm 27, the latter slideson the elevated arm lifter 37 and thus is in its raised position shownin full lines on FIG. 4 and the needle or stylus 33 is spaced from therecord R as it moves inwardly over the latter.

Upon completion of a predetermined lead-in movement of tone arm 27established by the previous setting of record size selecting knob 22,abutment member 127 on lead-in lever 48 engages the one of the stopperedge portions 126a-126c of record size selecting cam member 117 thendisposed at the operative position, for example, the stopper edgeportion 126b as shown on FIG. 7B, so as to prevent further movement oflead-in lever 48 with main lever 47 in the direction of arrow h.Thereafter, during further movement of main lever 47 in the direction ofarrow h, the angled flank 101a of nose 101 on drive member 94 and thenthe angled flank 101b cams across coupling pin 109 while drive member 94is yieldably urged against pin 109 by the force of spring 97 untilfinally nose 101 is released from coupling pin 109 and the lead-inmovement of main lever 47 can continue independently of lead-in lever48. As main lever 47 continues to turn in the direction of arrow h onFIG. 7B, for example, to the play position shown on FIG. 7C, downwardlyinclined ramp 84 of main lever 47 moves under shaft 38 so as to permitgravitationally induced downward movement of shaft 38 and of arm lifter37 therewith so that tone arm 27 is lowered to the position shown inbroken lines on FIG. 4 and needle or stylus 33 engages record R at thepreviously predetermined set-down position. Upon such engagement of theneedle or stylus 33 with record R, the lead-in operation of recordplayer 10 is completed and a play operation thereof is commenced.

As main lever 47 attains its play position at the completion of thelead-in movement thereof, pin 115 depending from main lever 47 actuatesswitch SW₂ so that the latter electrically detects the commencement of aplay operation. Furthermore, as main lever 47 nears its play position,abutment 105 of return drive member 95 is engaged with projection 108 ofthe chassis for causing angular displacement of return drive member 95from its retracted position and permitting toggle spring 106 to completethe movement of drive member 95 to its extended position, as shown onFIG. 5B. At the completion of the lead-in movement or turning of controlgear 53 through 180° from the stop position of FIGS. 5A and 7A to theplay position of FIGS. 5B and 7C, the actuator of switch SW₁ moves fromthe raised portion 58a to the depressed portion 58b of radial cam 58 soas to electrically detect the completion of the lead-in operation. Byreason of the direction of the force F₂ (FIG. 7C) applied to main lever47 by brake operating lever 136 under the influence of spring 139, mainlever 47 is urged in the direction for pressing cam follower roller 81thereon into the inverted cusp or depression 57c in the outer wallsurface of cam groove 57 for positively holding control gear 53 in itsplay position with toothless gap 56b facing toward pinion 52. Thus, uponcompletion of the lead-in operation, control gear 53 cannot beinadvertently displaced from its play position by impacts or shocksapplied to the record player and, therefore, will not be accidentallyrotated by pinion 52 during the following play operation.

It is to be noted that during the lead-in operation of record player 10,a suitable braking force is applied by brake mechanism 50 to the collaror boss 88 on tone arm support shaft 29 so that the lead-in movement oftone arm 27 to its predetermined set-down position is smoothly effected.More particularly, during the initial portion of the lead-in movement ofmain lever 47 in the direction of the arrow h on FIG. 7B, roller 144moves off oblique end edge 145 of brake operating lever 136 and thenalong the contiguous side edge 146 for initially turning lever 136 inthe clockwise direction against the force of spring 139. Brake lever 138is urged by spring 147 to follow such clockwise movement and therebyapply brake pad 151 against boss 88 for exerting the desired brakingforce. However, during the final lead-in movement of main lever 47 toits play position (FIGS. 5B and 7C), roller 144 moves further along sideedge 146 of brake operating lever 136 to permit spring 139 to return thelatter in the counterclockwise direction substantially to its originalposition. By reason of the engagement of limit screw 148 with lug 150,brake lever 138 is made to follow the counter-clockwise turning of brakeoperating lever 136 for separating brake pad 151 from collar or boss 88so that the braking force is not applied to boss 88 and tone arm supportshaft 29 at the completion of the lead-in operation and during thesubsequent play operation of record player 10.

PLAY OPERATION

At the completion of the lead-in movement of control gear 53, that is,at the start of the play operation of record player 10, the positions ofclutch mechanisms 60 and 61 are the reverse of the positions thereof inthe stop condition of the record player, that is, downwardly directedprojection 66b of the underlying cam member 66 of clutch mechanism 61 isadjacent the projection 46e on actuating slide 46 (FIG. 14). Further, atthe commencement of the play operation, pin 93 is spaced from end 46f ofactuating slide 46, as shown in full lines on FIG. 14. During the playoperation, the engagement of needle 33 in the spiral groove of record Rcauses the progressive inward swinging of the tone arm in the directionof the arrow i on FIG. 14.

RETURN OPERATION

When needle 33 has reached the inner end of the spiral grooove in recordR, for example, when the tone arm assembly 16 has reached the positionindicated in broken lines at 16' on FIG. 14, pin 93 on uppersector-shaped member 86 moves to the position indicated in broken linesat 93' and acts against the adjacent end 46f of actuating slide 46 fordisplacing the latter in the direction of the arrow d. As a result ofsuch displacement of actuating slide 46, projection 46e at the endthereof acts against projection 66b of underlying cam member 66 forturning the latter in the counterclockwise direction about pivot pin 67.Due to the frictional engagement of engaging member 65 with cam member66, engaging member 65 is turned with the underlying cam member 66, forestablishing the engaged condition of clutch mechanism 61, for example,as indicated in broken lines at 61' on FIG. 14. In such engagedcondition of clutch mechanism 61, the free end of arm 65a of engagingmember 65 projects above toothless gap 56b of control gear 53 againstthe rim 52b at the top of pinion 52 so as to be interposed in the pathof movement of abutment 52a. Accordingly, as abutment or nose 52arotates with pinion 52 in the direction of arrow c on FIG. 19, abutment52a comes into engagement with the end of arm 65a and pushes the latterlongitudinally to effect an incremental rotation of control gear 53 inthe direction of the arrow f. Such incremental rotation of gear 53 issufficient to displace toothless gap 56b away from pinion 52 and tocause meshing engagement of the latter with teeth 55b. Upon theengagement of teeth 55b with pinion 52, control gear 53 is rotated inthe direction of arrow f through an angular displacement of 180° foreffecting a return operation of control mechanism 44. During suchhalf-revolution or return movement of control gear 53, pin 59b dependingtherefrom moves against one of the sloping or slanting flanks ofV-shaped projection 46e on actuating slide 46 for returning the slide toits inoperative position indicated in full lines on FIG. 14.

During the return movement of control gear 53, depression or invertedcusp 57c moves away from cam follower roller 81 and the latter is guidedby cam groove portion 57b (FIG. 7D) until, at the completion of thereturn movement of gear 53, roller 51 again engages inverted cusp ordepression 57d (FIG. 8C). During the guiding of cam follower roller 81by cam groove portion 57b in the course of the return movement ofcontrol hear 53, roller 81 is displaced in the direction toward shaft 54so as to effect angular displacement or return movement of main lever 47in the direction of the arrow h' (FIG. 7D) from the position shown onFIG. 7C to the position shown on FIG. 8C. At the commencement of suchreturn movement of main lever 47 in the direction of the arrow h', pin115 on main lever 47 is separated from the actuator of play detectingswitch SW₂ so as to electrically indicate that the play operation hasbeen terminated. Further, at the commencement of the return movement ofmain lever 47, inclined ramp 84 on main lever 47 moves out from underarm lifter shaft 38 so that the latter is raised and thereaftersupported on the horizontal portion of main lever 47, with the resultthat arm lifter 37 is raised for lifting tone arm 27 and separatingneedle 33 from the record R during the return operation. As the returnmovement of main lever 47 is continued, abutment 105 of return drivemember 95 in its extended position engages pin 92 on upper sector-shapedmember 86 so as to push that pin 92 in the direction of the arrow h' onFIG. 8B. Thus, sector-shaped member 86 is turned in thecounter-clockwise direction about tone arm support shaft 29 and thelower sector-shaped member 87 is made to follow such turning movement ofmember 86 through the connecting spring 90, with the result that tonearm 27 is made to swing outwardly in the direction of the arrow i' onFIG. 2 while being held in its raised position on arm lifter 37.

During the return movement of main lever 47 in the direction of thearrow h' on FIG. 7D, the angled flank 101b on nose 101 of drive member94 acts against coupling pin 109 on lead-in lever 48 for similarlyturning the lead-in lever in the direction of the arrow h' about pivotpin 79.

The several parts of control mechanism 44 are dimensioned and arrangedso that the return swinging movement of tone arm 27 to its rest positionon arm rest 34 is completed prior to the completion of the returnmovement of control gear 53, for example, at a time when control gear 53is in the position shown on FIG. 7E. When control gear 53 attains theposition shown on FIG. 7E, pin 109 on lead-in lever 48 engages abutment110 of the chassis so as to prevent further return swinging movement oflead-in lever 48. Therefore, during the final return movement of controlgear 53 to the stop position indicated on FIG. 8C, nose 101 of drivemember 94 cams over coupling pin 109 so as to be again engaged in backof the latter, as indicated in broken lines on FIG. 7E. Further, duringthe final return movement of control gear 53, for example, from theposition shown on FIG. 7E to the stop position shown on FIG. 8C, thatis, during the final return movement of main lever 47 from the positionshown in broken lines at 47' on FIG. 8C to the position shown in fulllines thereon, additional turning of upper sector-shaped member 86 isblocked by the engagement of tone arm 27 with arm rest 34 and,therefore, movement of pin 92 by abutment 105 of return drive member 95is arrested. Accordingly, during movement of the main lever from theposition indicated in broken lines at 47' to the position shown in fulllines on FIG. 8C, pin 92 reacts against abutment 105 of return drivemember 95 for displacing the latter from its extended position indicatedin broken lines at 95' to its retracted position where it is thereafterheld by toggle spring 106.

During the final return movement of control gear 53 back to its stopposition shown on FIG. 5A, clutch mechanism 60, which has been in itsengaged position since initiation of the previously described lead-inoperation, is returned to its disengaged position. Such return of clutchmechanism 60 from its engaged position to its disengaged position iseffected by the movement of its projecting cam portion 60d across theperiphery of drive gear 52. Accordingly, when control gear 53 returns toits original or stop position in which toothless gap 56a faces towardsdrive gear 52, nose or abutment 52a can rotate with drive gear or pinion52 without engaging arm 60a of clutch mechanism 60. Further, upon thereturn movement of control gear 53 to its stop position (FIG. 7A)inverted cusp or depression 57b of cam 57 is again located at camfollower roller 81 and the latter is pressed into such inverted cusp ordepression by the force F₁ applied to main lever 47 from brake controllever 136 so that control gear 53 is again held securely againstinadvertent displacement from its stop position.

It is also to be noted that, during the above described returnoperation, brake mechanism 50 applies a braking force to collar or boss88 on tone arm support shaft 29 for braking the return movement of tonearm 27 to its rest position in a manner similar to the above descriptionof the application of the braking force during the lead-in operation.

REJECT OPERATION

At any time during a play operation of control mechanism 44, thestart-stop switch actuator 18 may be manipulated or touched formomentarily energizing electromagnet 77 and thereby initiating a rejectoperation. The momentary energizing of electromagnet 77 causesdisplacement of actuating slide 46 in the direction of the arrow d onFIG. 14 so that the end projection 46e of the actuating slide is theneffective to displace clutch mechanism 61 to its engaged position as hasbeen described above in connection with the initiation of a returnoperation. Following such movement of clutch mechanism 61 to its engagedposition, the reject operation proceeds in the same manner as the returnoperation, so that tone arm 27 is returned to its rest position on armrest 34 and the several parts of control mechanism 44 are returned tothe positions thereof shown on FIG. 5A.

MANUAL OPERATION

When it is desired to effect manual operation of record player 10, knob22 is set to the position for manual operation so as to dispose stopperedge portion 126d of cam member 117 at the operative position. Withcontrol mechanism 44 in its stop condition, arm lifter 37 is held in itsraised position by the engagement of its support shaft 38 with thehorizontal portion of main lever 47, and tone arm 27 is manuallydisplaced inwardly in the direction of the arrow i on FIG. 2 to thedesired set-down position. During such manual displacement of tone arm27, the latter slides across raised arm lifter 37 so that needle 33 iselevated in respect to record R on turntable 14. Since return drivemember 95 is in its retracted position when control mechanism 44 is inits stop condition (FIG. 5A), the abutment 105 of drive member 95 isspaced inwardly in respect to the arcuate path of movement of pin 92about tone arm support shaft 29 so as to avoid interference with thedescribed manually effected inward swinging of the tone arm to thedesired set-down position.

After having manually located tone arm 27 at the desired set-downposition, start-stop switch actuator 18 is manipulated or touched sothat, as in the previously described lead-in operation, electromagnet 77is momentarily energized to displace actuating slide 46 in the directionof the arrow d on FIG. 13 for engaging clutch mechanism 60. Thus,turning of control gear 53 through a half revolution from the positionof FIG. 5A to the position of FIG. 5B is initiated for effectingcorresponding swinging of main lever 47. However, when manual operationhas been selected, the engagement of abutment 127 on lead-in lever 48with stopper edge portion 126d on size-selecting cam member 117 preventssubstantial movement of lead-in lever 48 away from its stop position onFIG. 5A. Therefore, as main lever 47 is turned in the direction of thearrow h on FIG. 7B, lead-in lever 48 remains in its stop position andlead-in drive member 94 has its nose 101 disengaged from coupling pin109 on the lead-in lever. When main lever 47 arrives at its playposition (FIG. 7C), downwardly inclined ramp 84 moves under shaft 38 soas to permit gravitationally induced downward movement of shaft 38 andof arm lifter 37 thereon so that tone arm 27 is lowered and the needleor stylus 33 engages record R at the previously manually selectedset-down position. Upon such engagement of needle of stylus 33 withrecord R, the play operation of record player 10 commences.

If desired, during manual operation, the vertical movements of armlifter 37, and hence the lowering of tone arm 27 for engaging needle orstylus 33 with record R at a previously manually selected set-downposition may be controlled by the manually actuable cueing controlhandle 40. In other words, handle 40 may be initially disposed tomaintain arm lifter 37 in its raised position even when main lever 47attains its play position (FIG. 5B) with inclined ramp 84 under shaft38. Thereafter, when it is desired to initiate the play operation,handle 40 is manipulated to lower shaft 38 and arm lifter 37, andthereby cause engagement of the needle or stylus with the record.

During the above described manual operation of record player 10, thereturn operation of control mechanism 44 and/or the reject operationthereof may occur in the same manner as has been previously describedwith respect to the fully automatic operation of the record player.

ELECTRICAL DETECTION OF END OF PLAY OPERATION

In the above described embodiment of the record player 10 according tothis invention, the end of a play operation is mechanically detected bythe movement of pin 93 of tone arm drive mechanism 51 against theadjacent end 46f of actuating slide 46 for displacing the latter in thedirection of the arrow d on FIG. 14 and thereby causing actuating slide46 to move clutch mechanism 61 to its engaged position for initiatingthe return movement of control gear 53. However, if desired, the end ofa play operation may be otherwise detected for causing a suitablecircuit to energize electromagnet 77 and thereby displace actuatingslide 46 in the direction of the arrow d on FIG. 14 so as to initiatethe return movement of control gear 53 as previously described inconnection with the mechanical detection of the end of a play period.For example, as shown on FIG. 17, in a modification of the controlmechanism 44 according to this invention, a magnet 152 is secured to thearcuate outer edge of the upper sector-shaped member 86 of tone armdrive mechanism 51, and a magnetic sensor 153 is mounted on a forwardlydirected extension 110a of the abutment portion 110 of chassis 35 sothat such magnetic sensor 153 is adjacent the arcuate path traveled bymagnet 152 when member 86 turns about the axis of tone arm support shaft29 in response to swinging of tone arm assembly 16 between its restposition indicated schematically in full lines on FIG. 17 and its end ofplay positions indicated schematically in broken lines at 16'. Thesensor 153 is disposed along such arcuate path so that magnet 152 willbe in confronting relation to sensor 153 for actuating the latter onlywhen, in the course of a play operation, tone arm assembly 16 has movedto the position indicated at 16', that is, the position corresponding tothe engagement of the needle or stylus in the end portion of a recordgroove.

As shown on FIG. 18, a circuit for energizing electromagnet 77 whensensor 153 is actuated by magnetic flux from magnet 152 may includeswitch SW₃ which is normally closed and which is opened only when cammember 117 is in the position indicated at 117d on FIG. 12 so as toactuate switch SW₃ with its radial edge 135, that is, when cam member117 is disposed for selecting manual operation of the record player. Thecircuit for energizing electromagnet 77 is further shown to include adifferentiating circuit 154, an amplifier 155 and a driving circuit 156.So long as switch SW₃ is closed, that is, during fully automaticoperation of the record player, the arrival of the needle or stylus atthe end portion of the record groove is accompanied by the positioningof magnet 152 adjacent sensor 153 so that the latter provides an outputwhich is applied to the differentiating circuit 154. The differentiatedoutput of circuit 154 is amplified by amplifier 155 and the output ofthe latter is applied to driving circuit 156 so that the latterenergized electromagnet 77. As a result of energizing of electromagnet77, actuating slide 46 is displaced in the direction of the arrow d onFIG. 14 and the previously described return operation of controlmechanism 44 is initiated.

It will be apparent that magnet 152 and sensor 153 on FIG. 17 may bereplaced by a light source and photo-sensitive element, respectively, orby any one of various types of switches which are actuated to a closedcondition when the tone arm assembly is moved to the position indicatedat 16' on FIG. 22.

It will further be noted that the circuit of FIG. 18 for detecting theend of a play operation will be inoperative to energize electromagnet77, and thereby initiate the return operation of control mechanism 44,so long as switch SW₃ is open, that is, whenever cam member 117 (FIG.12) is disposed for selecting the manual operation of the record player.Thus, when the record player is provided with the circuit of FIG. 18 andcam member 117 is positioned for achieving manual operation, the tonearm has to be manually returned to its rest position at the completionof a play operation.

REPEAT OPERATION

The construction and arrangement of the record player control mechanism44 according to this invention is particularly suited for achievingautomatic repeat operations of the record player 10. More specifically,as shown on FIG. 19, a normally open microswitch SW₄ may be suitablymounted on the chassis so as to be actuated and thereby closed by pin115 depending from main lever 47 when the main lever returns to its stopposition as shown in full lines on FIG. 19 and on FIG. 5A. Thus, switchSW₄ is operative to detect the completion of a return operation. Asshown on FIG. 20, in a repeat control circuit for record player controlmechanism 44, the switches SW₃ and SW₄ are connected in series with anadditional switch SW₅ in a circuit for energizing electromagnet 77,while the switches SW₃ and SW₅ are further connected in series in acircuit for energizing a lamp 157 which, when illuminated, indicatesthat the repeat operation has been selected. The switch SW₅ is normallyopen and is suitably controlled so as to be changed over to its closedcondition when repeat switch actuator 19 is manipulated or touched,whereupon switch SW₅ remains in its closed condition until start-stopswitch actuator 18 is again touched or manipulated for terminating therepeat operation.

It will be apparent that, if at any time during the automatic operationof record player control mechanism 44, repeat switch actuator 19 istouched or manipulated to close switch SW₅, the circuit of FIG. 20 willbe thereby set up to illuminate the repeat operation indicating lamp 157and to energize electromagnet 77 upon each closing of switch SW₄, thatis, upon the completion of each return operation occurring so long asswitch SW₅ remains in its closed condition. Thus, if repeat switchactuator 19 is touched or manipulated to close switch SW₅ during alead-in operation, a play operation or a return operation of controlmechanism 44, upon the return of main lever 47 to its stop positionshown on FIG. 5A at the completion of a return operation, pin 115 willclose switch SW₄ to cause energizing of electromagnet 77. At suchcompletion of a return operation, control gear 53 will be in theposition shown on FIG. 5A, so that the energizing of electromagnet 77,and the consequent displacement of actuating slide 46 will cause thelatter to move clutch mechanism 60 to its engaged position forimmediately initiating a new lead-in operation, as previously described.Accordingly, so long as switch SW₅ remains in its closed condition, thatis, until the start-stop switch actuator 18 is touched or manipulated,the completion of each return operation will be immediately followed bya new lead-in operation, and then by a play operation and a returnoperation, as previously described.

It will be apparent that, in effecting the repeat operation of controlmechanism 44, the time interval between the completion of a returnoperation and the initiation of a new lead-in operation is very short,as all that is required is a momentary energizing of electromagnet 77for displacing actuating slide 46.

With the repeat operation control circuit shown on FIG. 20, the touchingor manipulation of repeat switch actuator 19 for closing switch SW₅ at atime when record player control mechanism 44 is in the stop conditionthereof, at which time switch SW₄ is closed, will cause immediateenergizing of electromagnet 77 for initiating a lead-in operation.Thereafter, the described repeat operation of the control mechanisn 44will occur until such time as the start-stop switch actuator 18 istouched or manipulated so as to cause a halt in the operation of therecord player upon the completion of the next return operation. Ofcourse, the repeat operation control circuit of FIG. 20 will beinoperative to energize electromagnet 77 and to illuminate indicatinglamp 157 whenever switch SW₃ is in its opened condition in response tothe positioning of cam member 117 for selection of the manual operationof the record player.

It will be apparent that, in the previously described embodiment of theinvention, if actuating slide 46 is displaced in the direction of thearrow d on FIGS. 13 and 14 for moving either the clutch mechanism 60 orthe clutch mechanism 61 to its engaged position for initiating a lead-inoperation or a return operation of control mechanism 44 at a time whenthe single nose or abutment 52a on drive gear 52 has just moved past theposition in which it is engageable with the end of arm 60a or the end ofarm 65a, respectively there will be a delay in the actual initiation ofthe lead-in operation or the return operation, with such delay beingdetermined by the time required for substantially a full revolution ofdrive shaft 15. As shown on FIG. 21, such delay in the actual initiationof the lead-in operation or the return operation can be verysubstantially reduced by replacing the single nose or abutment 52a witha plurality of equally spaced apart noses or abutments, for example, thefour equally spaced noses or abutments 252a-252d, as shown. With thearrangement shown on FIG. 21, the maximum delay between the displacementof actuating slide 46 in the direction of the arrow d and the actualinitiation of the resulting lead-in operation or return operation is nomore than the time required for one-quarter revolution of drive shaft15.

Referring now to FIG. 22, it will be seen that, in another modificationof the record player control mechanism for minimizing any delay betweenthe displacement of actuating slide 46 in the direction of the arrow dand the resulting initiation of a lead-in operation or return operation,the previously described nose or abutment 52a is omitted from the drivegear 52 on drive shaft 15, and the clutch mechanisms 60 and 61 arereplaced by clutch mechanisms 260 and 261, respectively. In the clutchmechanisms 260 and 261, the parts thereof which are substantiallyunchanged from the clutch mechanism 60 and 61 are identified by the samereference numerals. Thus, lead-in clutch mechanism 260 may be in theform of a one-piece molded plastic lever pivoted, intermediate its ends,on a pin 62 and having oppositely directed arms 260a and 60b. Arm 260aof clutch mechanism 260 is shown to have teeth 262 extending along itsoutwardly facing side edge in trailing relation to cam portions 60b sothat, when actuating slide 46 is displaced in the direction of the arrowd with control gear 53 in its stop position, as shown on FIG. 22, clutchmechanism 260 is pivoted about pin 62 in the counter-clockwise directionfrom the illustrated disengaged position to its engaged position inwhich teeth 262 occupy the position of toothless gap 56a and mesh withdrive gear 52 to effect an incremental rotation of control gear 53 bywhich toothless gap 56a is moved away from drive gear 52 forestablishing meshing engagement of the latter with teeth 55a on thecontrol gear and thereby initiating the lead-in movement of the latter.

The return clutch mechanism 261 of FIG. 22 is shown to include an upperengaging member 265 superposed on a lower cam member 66, with bothmembers 265 and 66 being pivotally mounted, intermediate their ends, ona pivot pin 67. As shown, the upper engaging member 265 is substantiallyin the form of a lever having oppositely directed arms 265a and 65bwhich are at an angle to each other, with arm 265a having teeth 263formed along its outwardly facing side edge in trailing relation to thecam portion 66c of member 66. Therefore, when actuating slide 46 isdisplaced in the direction of the arrow d with control gear 53 in itsplay position indicated on FIG. 14, clutch mechanism 261 is displacedfrom its illustrated disengaged position to its engaged position inwhich teeth 263 occupy the position of the toothless gap 56b so as tomesh with drive gear 52 and thereby initiate the return movement ofcontrol gear 53.

It will be apparent that, in the case of the modification illustrated onFIG. 22, there is practically no delay between the displacement ofactuating slide 46 and the initiation of a lead-in operation or returnoperation of the record player control mechanism.

In the illustrated record player 10, a single switch actuator 18 hasbeen shown for both starting the operation of control mechanism 44 andfor stopping such operation or initiating a reject operation. However,it will be apparent that separate switch actuators may be employed forperforming the starting function and the stopping or rejecting function,respectively.

It will be apparent that, in control mechanism 44 according to thisinvention, the diametrically opposed positioning of lead-in and returnclutch mechanisms 60 and 61 on control gear 53 makes it possible forsuch clutch mechanisms to be jselectively actuated to their engagedpositions by the single actuating slide 46 for initiating the lead-inand return movements of tone arm 27. Moreover, such single actuatingslide 46 is displaceable to its operative position for initiating thelead-in or return movements of the tone arm with control gear 53 in itsstop and play positions, respectively, merely in response to energizingof electromagnet or coil 77.

Since an electrical circuit is provided for energizing electrogmagnet orcoil 77, and thereby displacing slide 46 to its operative position, onlya relatively light force need be applied by the user to the switchactuator 18 for effecting the energizing of coil 77. Further, suchenergizing of coil 77 and the corresponding movement of slide 46 to itsoperative position occur substantially instantaneously upon actuation ofswitch actuator 18, so that the delay normally associated with thetransmission of an applied force through a multi-part mechanicalarrangement is avoided. Moreover, by employing a single actuating slide46 which is moveable to its operative position by energizing of coil 77,the circuit arrangements of FIGS. 18 and 20 can be respectively employedfor electromagnetically initiating the return movement of the tone armat the completion of a play operation, and for achieving the repeatoperation of the record player in response to the manual application ofa relatively light force by the user to the switch actuator 19, aspreviously described.

It will also be seen that the delay in initiating lead-in and returnmovements of the tone arm, which delay or hesitation is alreadyminimized by the use of an electromagnetically produced force for movingslide 46 to its operative position, may be further reduced by the abovedescribed arrangements shown on FIGS. 21 and 22.

Although illustrative embodiments of this invention have been describedin detail herein with reference to the accompanying drawings, it is tobe understood that the invention is not limited to those preciseembodiments, and that various changes and modifications may be effectedtherein by one skilled in the art without departing from the scope orspirit of the invention as defined in the appended claims.

What is claimed:
 1. In a phonograph record player having a rotatableturntable for supporting a phonograph record during the playing thereof,drive means for rotating said turntable, and a tone arm assemblyincluding a tone arm carrying a pickup with a stylus to track the grooveof a phonograph record on said turntable during a play operation andbeing mounted for lateral swinging movement across said turntable andfor raising and lowering of the tone arm relative to said turntable: acontrol mechanism for effecting lead-in movement of said tone arm froman elevated rest position outside the perimeter of said turntable to aselected set-down position of said stylus on a record supported by saidturntable so as to commence a play operation, and for effecting a returnmovement of said tone arm to said rest position upon the termination ofsaid play operation, said control mechanism comprisinga drive gearrotatable by said drive means; a rotatable control gear having first andsecond sets of peripheral teeth engageable by said drive gear forrespectively effecting lead-in and return movements of said control gearand being separated from each other by diametrically opposed first andsecond toothless gaps which, when facing toward said drive gear in stopand play positions, respectively, of said control gear, permit thelatter to remain at rest while said drive gear continues to rotate, saidcontrol gear further having a continuous cam groove therein; pivotallymounted lever means having a cam follower engaging said cam groove so asto be angularly displaced for effecting said lead-in and returnmovements of said tone arm during said lead-in and return movements,respectively, of said control gear; individual lead-in and return clutchmeans mounted on said control gear at diametrically opposed locations,said lead-in and return clutch means having disengaged positions andengaged positions in which said lead-in and return clutch means arerespectively operative for initiating movements of said control gearfrom said stop and play positions thereof; a single actuating slidemovable from an inoperative position to an operative position forselectively actuating said lead-in and return clutch means to therespective engaged positions when said control gear is in said stop andplay positions, respectively; and electromagnetic means associated withsaid actuating slide and being energizable for moving the latter to saidoperative position of the slide.
 2. A phonograph record player accordingto claim 1; in which said actuating slide is, at least in part, of amagnetic material; and said electromagnetic means includes a coil forproducing a magnetic field acting on said magnetic part of the actuatingslide to move the latter to said operative position upon the supplyingof an electric current to said coil, and an electric control circuit forsupplying said electric current to said coil.
 3. A phonograph recordplayer according to claim 2; in which said circuit includes a firstswitch which is in series with said coil and which is manually actuablewith said control gear in said stop position for initiating said lead-inmovement of the tone arm, and with said control gear in said playposition for initiating said return movement of the tone arm and therebyrejecting a play operation of the record player.
 4. A phonograph recordplayer according to claim 3; in which said control circuit furtherincludes detecting means for providing an electrical output upondetection of the end of a play operation, and means for energizing saidcoil in response to said electrical output from said detecting means soas to initiate said return movement of the tone arm at the end of a playoperation.
 5. A phonograph record player according to claim 2; in whichsaid control circuit includes detecting means for providing anelectrical output upon detection of the end of a play operation, andmeans for energizing said coil in response to said electrical outputfrom said detecting means so as to initiate said return movement of thetone arm at the end of a play operation.
 6. A phonograph record playeraccording to claim 1; further comprising engaging means coupled withsaid tone arm assembly so as to move in response to said swingingmovement of the tone arm, said engaging means acting against said slideand moving the latter to its operative position when said stylus tracksthe inner end portion of the record groove at the end of a playoperation.
 7. A phonograph record player according to claim 1; in whichsaid control gear has means thereon acting against said actuating slidein the course of said lead-in and return movements of said control gearfor returning said actuating slide to said inoperative position thereof.8. A phonograph record player according to claim 1; in which saidlead-in and return clutch means include respective lever arms pivoted inrespect to said control gear and projecting into said first and secondtoothless gaps, respectively, in the engaged positions of said lead-inand return clutch means, and abutment means rotates with said drive gearfor acting against the one of said lever arms projecting into therespective toothless gap when the latter faces toward said drive gear.9. A phonograph record player according to claim 8; in which saidabutment means includes a plurality of equally, angularly spaced nosesprojecting radially outward from said drive gear.
 10. A phonographrecord player according to claim 1; in which each of said lead-in andreturn clutch means includes a lever arm pivoted on said control gearand having a toothed edge which, in the disengaged position of therespective clutch means, is retracted relative to the respectivetoothless gap and, in the engaged position of the respective clutchmeans, bridges the respective toothless gap for engagement by said drivegear.
 11. A phonograph record player according to claim 1; in which saidelectromagnetic means includes a coil operative, when electricallyenergized, to provide a magnetic field for moving said actuating slideto said operative position, an electric control circuit for energizingsaid coil including first and second switches connected in series foreffecting said energizing of the coil only when said switches aresimultaneously closed, said first switch being closeable for selecting arepeat operation of said record player, and means for closing saidsecond switch when said tone arm is returned to said rest position. 12.A phonograph record player according to claim 11; in which said secondswitch is mounted adjacent said lever means so as to be actuated by thelatter upon completion of said return movement of the control gear. 13.A phonograph record player according to claim 1; further comprising ahorizontal chassis having an opening and above which said rotatableturntable is disposed; and in which said actuating slide is constitutedby an elongated member having a step at its middle portion to includeupper and lower horizontal portions disposed above and below,respectively, said chassis and connected by a vertical portion extendingthrough said opening of the chassis, at least said vertical portion ofthe actuating slide is of a magnetic material, and said electromagneticmeans includes a coil secured to said chassis adjacent said opening ofthe latter for producing a magnetic field acting on said verticalportion of the slide for moving the latter to said operative positionupon the supplying of an electric current to said coil.